Enzyme Induction in Green Monkey Kidney Cultures Infected with Simian Adenovirus

Thymidine kinase was induced after infection of an established strain of green monkey kidney cells (CV-1) with simian adenovirus SV15. Increased levels of thymidine kinase were first observed 8 to 10 hr postinoculation (PI), and the levels increased four- to eightfold by 16 to 24 hr PI. A transient increase (1.5- to 3-fold) of deoxyribonucleic acid (DNA) polymerase activity was also observed about 18 hr PI, but the level of deoxycytidylic deaminase was not enhanced. The inductions of thymidine kinase and DNA polymerase were not obtained when protein synthesis was inhibited with 10⁻⁵ M cycloheximide. However, the enzyme increases did take place when infected cultures were treated with 1-β-D-arabinofuranosylcytosine (ara-C), an inhibitor of DNA synthesis and SV15 replication. The incorporation of tritium-labeled thymidine (H³-dT) into DNA was also stimulated 8 to 24 hr after infection with SV15.     

Discrepancies between flow cytometric analysis and [3H]thymidine incorporation in stimulated lymphocytes

The DNA synthesis system of freshly isolated tonsillar lymphocytes and those stimulated by phytohaemagglutinin were compared by different methods. Both cell populations had high DNA polymerase α and thymidine kinase activities, as well as a high rate of incorporation of [³H]thymidine into DNA. However, the two cell populations differed when their DNA distributions were compared by flow cytometry. Freshly isolated cells contained many less (6%) cells in S phase than were found in phytohaemagglutinin-stimulated lymphocytes (18%) as detected by flow cytometry. The labelling of different subpopulations of lymphocytes was studied by sorting them electrically with a fluorescence-activated cell sorter. Analysis of the radioactivity of [³H]thymidine pulse-labelled cells, sorted according to their DNA content, showed that cells in the G₁ peak of DNA distribution had a significant amount of incorporated [³H]thymidine. Sorting of cells according to their size (i.e., by light scattering) revealed that only large cells were labelled with [³H]thymidine.     

Effects of removing PHA from cultures of PHA-stimulated lymphocytes

The proliferative capacity of PHA-stimulated lymphocytes following removal of PHA from the cultures was investigated. Lymphocytes were incubated with different PHA concentrations for 3 or 24 h and were then cultured in fresh medium with or without PHA in the original concentration. Cell proliferation was measured by incorporation of ³H-TdR. The effect of removing PHA was found to vary with the PHA concentration used for stimulation. Thus removal of PHA at 3 and 24 h from cells stimulated with half the optimal and at 3 h from cells stimulated with optimal PHA concentrations inhibited thymidine incorporation almost completely. Removal at 24 h from the latter cells resulted in a moderately decreased thymidine incorporation, whereas no decrease was seen after the removal of PHA from cells stimulated with twice the optimal concentration. When the cells were stimulated with very high PHA concentrations (20 × optimal), removal of PHA even resulted in an increased thymidine incorporation, a phenomenon that most probably has to do with the utilization of exogenous thymidine being inhibited by high PHA concentrations.The decreased thymidine incorporation after removal of low PHA concentrations was due to a reduction in the number of cells entering the proliferation cycle as well as to a decreased multiplication of cells already in DNA synthesis. This shows that PHA stimulates the cells even after they have initiated DNA synthesis. Various explanations for the results are discussed.     

Adaptation of thymidine utilization to changing rates of DNA synthesis in the cell cycle

Summary In synchronous cultures of P-815 murine mastocytoma and of Chinese hamster ovary (CHO) cells, the relative contribution of exogenous thymidine to DNA synthesis was studied by comparing rates of (³H)thymidine incorporation with the rate of DNA synthesis as derived from incorporation of (³H)thymidine (10^–5 m) in the presence of amethopterin. In synchronous P-815 cultures, time-dependent variations of DNA synthesis rates were in close agreement with those of (³H)thymidine incorporation rates at concentrations of the precursor ranging from 5 × 10^–8 to 10^–5 m. Similarly, in synchronous CHO cell cultures prepared by two different methods, time-dependent changes in DNA synthesis rate were almost identical with those of the rate of incorporation of (³H)thymidine supplied at 5 × 10^–8 m. Thus, at a given thymidine concentration in the medium, the proportion of thymine residues in DNA that were derived from exogenous thymidine remained nearly constant, even though rates of cellular DNA synthesis underwent pronounced changes. This indicates that in the synchronous culture systems used, utilization of exogenous thymidine is efficiently adapted to changing rates of DNA synthesis.In partial fulfillment of the requirements for the degree of Ph.D. by G.G.M.     

Measurement of bacterial growth rates on the rhizoplane using 3H-thymidine incorporation into DNA

Bacterial growth rates on the rhizoplane of rape seedlings grown in sand were determined using ³H-thymidine incorporation into DNA. Axenic roots incorporated thymidine into DNA, which had to be subtracted from values for roots with associated bacteria. Thymidine incorporation into rhizoplane bacterial DNA ranged between 0.6 and 1.4 pmol thymidine h^–1 root^–1 for 6 to 26-day-old plants. Using a conversion factor, the turnover time of bacteria was calculated to decrease from 9.2 h for 6-day-old plants to 160h for 26-day-old plants. A similar value was found for rhizosphere bacteria of plants grown for 26 days in natural soil.     

Transfection of mouse cells with thymidine kinase gene of herpes simplex virus

A mouse cell line (LP1-1) was established from the murine L cells deficient in thymidine kinase (L-M(TK ^–)) by prolonged selective culture on the hypoxanthine-aminopterine-thymidine (HAT) medium following transfection with the thymidine kinase gene of herpes simplex virus type-I (HSVTK). Southern blot analysis has shown that the viral TK gene was integrated into one of the chromosomal loci by a single copy. From this established cell line, the 5-bromo-2-deoxyuridine (BrdU) resistant revertant was brought out at a frequency of 1×10^–6 and from these BrdU resistant revertants (LP1BU), one out of 1×10⁵ cells could return to the HAT-resistant phenotype. The established LP1-1 cell line showed a typical biphasic nature of DNA synthesis as determined by the ³H-thymidine incorporation test. The activity of thymidine kinase was shown to be equivalent to that of the DNA polymerase- when the whole nuclear fraction or the nuclear matrix were used for examination. These results indicate that the transfected viral TK gene can be expressed under the normal cell-cycle regulation and its gene product can act as a component of the multienzyme complex which is responsible for DNA replication.     

Ovarian maturation in Leucophaea maderae: Juvenile hormone regulation of thymidine uptake into follicle cell DNA

Our research demonstrates that juvenile hormone (JH I) stimulates thymidine incorporation into ovarian follicle cell DNA in the ovoviviparous cockroach, Leucophaea maderae.A rapid, quantitative method for monitoring ³H-thymidine incorporation into ovarian DNA, in vitro, is described. Cultured ovarian tissue from L. maderae incorporates ³H-thymidine into DNA at a linear rate between 16 and 120 min; analysis of the incorporated label revealed at least 98% of it to be in DNA.Using L. maderae females that had been mated 7 days after adult emergence, we monitored the following biochemical phenomena during the 18–22 day period of terminal oöcyte growth: (1) ³H-thymidine incorporation into ovarian DNA: (2) general protein synthesis in fat body; and (3) specific fat body vitellogenin synthesis.Decapitation of mated females with maturing oöcytes arrested both ovarian DNA synthesis and fat body vitellogenin synthesis. Substantial restoration of both types of synthesis was induced by injection of JH I. The resumption of thymidine incorporation into DNA was localized in the follicular epithelium of the terminal oöcyte.In decapitated virgin females, injection of JH I stimulated oöcyte growth and ³H-thymidine incorporation into ovarian DNA. Dose and time response curves indicate that peak stimulation of ovarian DNA synthesis occurred between 72 and 96 hr after administration of a single optimal dose of 25 μg JH I. The concurrent manifestation of ³H-thymidine uptake into ovarian DNA and activity within the fat body indicates that a similar hormonal mode of action may be operative with respect to both tissue types in virgin females.     

Selective inhibition of thymidine transport at low doses of the alkylating agents triethyleneiminobenzoquinone (Trenimon)

The alkylating antitumor agent triethyleneiminobenzoquinone (Trenimon) causes a rapid decrease in the incorporation of labeled thymidine into the DNA of Yoshida or Ehrlich ascites tumor cells. The effect is expressed 4 h after administration of 6 × 10⁻⁸ moles/kg of the drug to mice bearing Yoshida ascites tumors or of 6 × 10⁻⁷ moles/kg to Ehrlich ascites tumor-bearing animals, respectively. The reduced incorporation of labeled thymidine which is observed under these conditions is not due to an inhibition of DNA synthesis. DNA synthesis was measured by an isotope dilution assay after pulse-labeling with ³H-thymidine and by monitoring the increase in the total amount of DNA of the cell populations. The data demonstrate that DNA synthesis is not affected during the first 8 h after exposure to the drug. This conclusion is supported by cell kinetic measurements which indicate that the alkylating agent does not interfere with the progression of cells into the S phase, but exerts a block at the G 2 stage of the cell cycle. The reduced incorporation of thymidine into DNA is explained by a decreased transport of the nucleoside into the cells.     

Effect of insulin at dilution endpoint concentrations on macromolecular synthesis in normal mouse mammary and human breast cancer epithelial cells

Employing defined media conditions, the insulin sensitivities of mouse mammary gland epithelial cells in primary culture and MCF-7 human mammary epithelial cells were determined. Insulin stimulated the rates of [³H]uridine incorporation into RNA and [³H]leucine incorporation into protein in both primary mouse mammary gland epithelial cell cultures and MCF-7 cell cultures at concentrations approximating the dilution endpoint of the hormone (10⁻²¹ M). Insulin stimulated the rate of [³H]thymidine incorporation into DNA in primary mouse mammary gland epithelial cells at the dilution endpoint concentrations. However, MCF-7 cells required insulin concentrations 100–1000-times that necessary in mouse mammary epithelial cultures to elicit an increased rate of [³H]thymidine incorporation into DNA. Evidence is presented which suggests that the increased rates of uptake of [³H]uridine, [³H]thymidine and [³H]leucine into their respective precursor pools is not responsible for the apparent stimulatation of RNA, DNA and protein synthesis.     

Bacterial secondary production in freshwater measured by3H-thymidine incorporation method

Bacterial secondary production in lake water was measured by³H-thymidine incorporation into DNA. The application of the method to freshwater systems studied required (1) thymidine concentration > 10 nM (10–25 nM) evaluated from isotope dilution by varying the specific activity of labeled thymidine, (2) short incubation periods less than 1 hour, and (3) partial purification of the DNA fraction for measuring³H-thymidine incorporation. During 2 diel studies, bacterial productivity was compared to phytoplankton primary production and extracellular release of organic carbon. Diel changes in bacterial growth suggested substantial activity during the morning and evening. Possible mechanisms of control of bacterial growth, such as extracellular release of organic carbon, are discussed.     

Simian Virus 40 Deoxyribonucleic Acid Replication: I. Effect of Cycloheximide on the Replication of SV40 Deoxyribonucleic Acid in Monkey Kidney Cells and in Heterokaryons of SV40-transformed and Susceptible Cells

Infectious deoxyribonucleic acid (DNA) was extracted from green monkey kidney (CV-1) cultures at various times after the cultures were infected with simian virus 40 (SV40) at input multiplicities of 0.01 and 0.1 plaque-forming unit (PFU) per cell. A pronounced decrease in infectious DNA was observed from 3 to 16 hr after virus infection, suggesting that structurally altered intracellular forms may have been generated early in infection. Evidence is also presented that SV40 DNA synthesis requires concurrent protein synthesis. DNA replication was studied in the presence and absence of cycloheximide in: (i) SV40-infected and uninfected cultures of CV-1 cells; (ii) cultures synchronized with 1-β-d-arabinofuranosylcytosine (ara-C) for 24 to 30 hr prior to the addition of cycloheximide; and (iii) in heterokaryons of SV40-transformed hamster and susceptible monkey kidney cells. DNA synthesis was determined by pulse-labeling the cultures with ³H-thymidine at various times from 24 to 46 hr after infection. In addition, the total infectious SV40 DNA was measured. Addition of cycloheximide, even after early proteins had been induced, grossly inhibited both SV40 and cellular DNA syntheses. The activities of thymidine kinase, DNA polymerase, deoxycytidylate deaminase, and thymidylate kinase were measured; these enzyme activities remained high for at least 9 hr in the presence of cycloheximide. SV40 DNA prelabeled with ³H-thymidine before the addition of cycloheximide was also relatively stable during the time required for cycloheximide to inhibit further DNA replication.     

Modulation of DNA synthesis in aortic smooth muscle cells by dinitrotoluenes

Studies were conducted to determine if in vivo exposure to dinitrotoluenes (DNT), which is associated with circulatory disorders of atherosclerotic etiology in humans, is associated with alterations of vascular smooth muscle cells (SMC) consistent with the atherogenic process. Sprague-Dawley rats (150-180 g) were injected IP for 5 days/week for 8 weeks with 2,4- or 2,6-DNT (0.5, 5, or 10 mg/kg) or medium chain triglyceride (MCT) oil. Histopathologic evaluation of aortae from animals exposed to either isomer showed dysplasia and rearrangement of SMC at all doses tested. Reduced ³H-thymidine incorporation was observed in primary cultures of aortic SMC from DNT-exposed animals relative to vehicle controls. This inhibitory response was maintained for up to two passages in culture after which a significant increase in thymidine incorporation was observed. Exposure of SMC from naive animals to DNT in vitro (1–100 µM) did not alter the extent of thymidine incorporation in cycling or growth-arrested cultures. In contrast, exposure to 2,4- or 2,6-diaminotoluene (DAT) (1–100 µM), carcinogens which share toxic metabolic intermediates in common with DNT, inhibited replicative DNA synthesis and stimulated unscheduled DNA synthesis in cycling and growth-arrested cultures of SMC, respectively. Our results suggest that modulation of DNA synthesis in aortic SMC by DNT metabolites generated in vivo contribute to the development of vascular lesions.Abbreviation DAT diaminotuluene - tDNT technical grade dinitrotoluene - DNT dinitrotoluenes - HU hydroxyurea - IP intraperitoneal - LDH lactate dehydrogenase - MCT oil medium chain triglyceride - NPTC non-protein thiol content - RDS replicative DNA synthesis - SEM standard error of the mean - SMC smooth muscle cells - UDS unscheduled DNA synthesis     

Increase in DNA replication sites in cells held at the beginning of S phase

CHO cells were pulse labeled with ³H-thymidine after synchronization and blockage at the beginning of S phase for various intervals. The distribution of initiation sites for DNA replication and rates of chain growth were measured in autoradiographs prepared from these cells. Origins used for replication are widely distributed at or near the beginning of S phase, but usable origins increase continuously for many hours when FdU is used to block the synthesis of thymidylate. Potential origins are located about four microns apart, but in normal replication in these fibroblasts only one in 15 to 20 potential origins are used for initiation. On the other hand, when cells are held at the beginning of S phase for 12–14 h, about one-half of the potential origins are activated in part of the DNA and utilized when the cell is released from the block by supplying ³H-thymidine (10^–6M). Chain growth during a short pulse decreases with time of the blockage at what appears to be a linear rate. However, cells can replicate long continuous stretches of their DNA with only 2×10^–8M thymidine available in the medium for several hours when synthesis is blocked by FdU. The total amount of DNA replicated is, however, much less than when a concentration of 10^–6 M thymidine is supplied for the same period. The origins which are finally used under any experimental condition appear to be a random sample of the total potential origins which are distributed in a regular repeating sequence along the DNA at about 12 kilobase intervals.     

1-β- -Arabinofuranosylcytosine stimulates thymidine incorporation into the DNA of contact-inhibited cells

In rapidly proliferating cells l-β- -arabinofuranosylcytosine (ara-C) is a potent inhibitor of DNA synthesis whose effect can be irreversible and consequently cytocidal. Whereas thymidine incorporation is greatly reduced in rapidly proliferating cells in the presence of ara-C, contact-inhibited cells, similarly treated, show increased thymidine incorporation by as much as 7-fold. This ara-C-induced stimulation appears to result from an influence on thymidine utilization rather than increased DNA synthesis.     

Deoxyribonucleic Acid Synthesis in Bacteriophage SPO1-Infected Bacillus subtilis I. Bacteriophage Deoxyribonucleic Acid Synthesis and Fate of Host Deoxyribonucleic Acid in Normal and Polymerase-Deficient Strains

The effect of bacteriophage SPO1 infection of Bacillus subtilis and a deoxyribonucleic acid (DNA) polymerase-deficient (pol⁻) mutant of this microorganism on the synthesis of DNA has been examined. Soon after infection, the incorporation of deoxyribonucleoside triphosphates into acid-insoluble material by cell lysates was greatly reduced. This inhibition of host DNA synthesis was not a result of host chromosome degradation nor did it appear to be due to the induction of thymidine triphosphate nucleotidohydrolase. Examination of the host chromosome for genetic linkage throughout the lytic cycle indicated that no extensive degradation occurred. After the inhibition of host DNA synthesis, a new polymerase activity arose which directed the synthesis of phage DNA. This new activity required deoxyribonucleoside triphosphates as substrates, Mg²⁺ ions, and a sulfhydryl reducing agent, and it was stimulated in the presence of adenosine triphosphate. The phage DNA polymerase, like that of its host, was associated with a fast-sedimenting cell membrane complex. The pol⁻ mutation had no effect on the synthesis of phage DNA or production of mature phage particles.     

Autoradiographic and ultrastructural study of Cucurbita pepo root cells during their growth and differentiation

Summary Cortex cells of the root meristem of Cucurbita pepo (0.0–0.5 mm from the cap junction), in the 3–4, 5–6 and 7–8 mm segments above the root tip, and the cells of the first three layers of lateral part of root cap were the object of the present study. The volume of cortex cells increases more than 20 times in the 7–8 mm segment as compared with meristematic cells, and the volume of cytoplasm about sevenfold. The largest increment of the cytoplasmic volume occurs between 0.5–6.0 mm. In consecutive root segments the sustained increase of the volume of nuclei takes place. By applying autoradiography the following processess have been investigated: DNA synthesis (³H thymidine uptake), template activity of DNA (³H actinomycin D(³H AMD)-binding), RNA synthesis (³H uridine incorporation), and protein synthesis (³H leucine). In the root cap cells and in segments where meristematic activity is over, DNA is replicated by endomitosis. On the basis of nuclear labelling it appears that nuclei in the 3–4 mm segment reach 4C ploidy state, but in the 7–8 mm segment half of the nuclei reach the 8C ploidy state. Most of the root cap cells are 4C, the remaining cells are 8C. Considering the uptake of ³H thymidine into nucleoli one may suppose that in the root cap cells nucleolar DNA is underreplicated, and to a lesser degree in 5–6 and 7–8 mm segments, while in 3–4 mm segment DNA is overreplicated as compared to meristem cells. Measurements of nucleolar volume, ³H uridine uptake, ³H AMD binding and quantity of granular component, indicate that the most noticeable nucleolar activity takes place in meristematic zone and in root parts showing the highest increase of cytoplasmic volume (3–4 and 5–6 mm segments). ³H leucine is still incorporated intensely into 7–8 mm segment, in which the concentration of ribosomes is low, however they are present in the form of polysomes. Comparison of ³H thymidine uptake into nuclear DNA with ³H AMD binding and ³H uridine incorporation into nuclei indicates that endomitotic DNA replication results in an increase of DNA template activity in root cap cells as well as in 3–4 and 5–6 mm segments; in the 7–8 mm segment binding of ³H AMD slightly decreases, while ³H uridine incorporation is considerably reduced. Divergence between the ploidy state, ³H AMD binding and ³H uridine incorporation can be due to the increment of the condensed chromatin area in differentiated cells. Plastids and mitochondria reach full maturity in 3–4 mm segment. The increasing volume density of ER and diminishing volume density of Golgi structures is accompanied by differentiation of cortex cells.This work was partly supported by Polish Academy of Sciences, Botanical Committee, Grant 217/II     

DNA,RNA and protein synthesis in ØLL55-infected Lactobacillus lactis

Lactobacillus lactis cells were infected with the bacteriophage ØLL55. The changes in DNA, RNA and protein synthesis were studied by following a long-term (over 3 h) incorporation of radioactive precursors into acid-insoluble material. Stimulation of DNA synthesis caused by phage occurred 30–35 min after infection and thymidine incorporation continued for about 70 min ceasing 10–20 min before the cells started to lyse. Cumulative (¹⁴C)-uracil incorporation into RNA continued at the level of uninfected cells for 30–40 min before starting to slow up. Protein synthesis in the infected cells followed that of a control culture for 40–50 min before the further incorporation of (¹⁴C)-leucine began to decrease.The additions of antibiotic inhibitors of RNA and protein synthesis (rifampicin and chloramphenicol, respectively) at various times before or during the prereplicative period showed that rifampicin, added up to 15 min after infection and chloramphenicol, added as late as 20–25 min after infection completely prevented the initiation of phage-genome replication. The later addition of these drugs did not prevent the out-burst of thymidine up-take, but promoted, however, a deduction in the initiations of new replication cycles. The results indicate that certain genes of ØLL55 genome must be expressed at the early stages of infection to confirm a proper onset and continuation of phage DNA replication.Abbreviations Rif rifampicin - CAL chloramphenicol - TCA trichloroacetic acid - cpm counts per minute     

Synchrony between DNA synthesis and thymidine incorporation into DNA in regenerating rat liver

DNA synthesis in regenerating liver was studied to determine whether the onset of stimulated DNA synthesis preceded the onset of increased incorporation of thymidine into DNA. Thymidine incorporation into hepatic DNA was not stimulated 15 h after operation, but was stimulated after 18 h; peak stimulation occurred 30 h after operation. Thymidine kinase activity was stimulated 24 h after operation; highest kinase activity was observed at 36 h. The onset of stimulated DNA synthesis was estimated by following the incorporation of labeled aspartic acid, sodium formate, adenine or orotic acid into appropriate DNA bases, viz., thymine, adenine, adenine or cytosine, respectively. Incorporation of adenine and orotic acid was stimulated between 15 h and 18 h after operation; incorporation of aspartic acid and sodium formate was stimulated between 18 h and 21 h after operation.The incorporation of thymidine into DNA was accelerated by stress stimulus and was inhibited by hydrocortisone. Changes in thymidine kinase activity also were correspondingly accelerated or delayed. Incorporation of labeled thymidine, adenine, formate, orotic acid or thymine into appropriate DNA bases, viz., thymine, adenine, adenine, cytosine or thymine, respectively, was stimulated by stress stimulus or was inhibited by hydrocortisone.It was concluded from these data that stimulation of DNA synthesis and of thymidine incorporation into DNA was essentially synchronized in regenerating rat liver. Results from this study were compared with results from similar studies in 2 other tissues, and the limitations, attendant with using thymidine incorporation into DNA as an indicator of stimulated DNA synthesis, were discussed.     

The effect of photosensitizing dyes on the 3H-thymidine incorporation of cells grown in vitro

The photodynamic inactivation of ³H-thymidine incorporation in mouse embryo (ME) and mouse L cells by acridine orange (AO), methylene blue (MB) or neutral red (NR) has been studied by estimating the number of nuclei capable of incorporating ³H-thymidine during a 24 h period following light exposure. In the dark NR and AO reduced the number of ME-nuclei incorporating ³H-thymidine but MB caused an increase in non-scheduled DNA synthesis. The dark effect on L cells was less but the photoinactivation of thymidine uptake was proportionally greater in these cells. Polyoma virus was shown to be capable of growing in cells whose thymidine uptake was reduced or completely stopped by photoinactivation with NR. However, if the NR damage was very great, or when AO was used to photosensitize cells, the synthesis of viral DNA was interfered with.     

Inhibition by 1-beta-D-arabinofuranosylcytosine of the incorporation of N-acetylneuraminic acid into glycolipids and glycoproteins of hamster embryo cells

1-β-D-Arabinofuranosylcytosine which interferes with DNA synthesis in bacteria and mammalian cells and brings about transformation of hamster embryo fibroblasts, has been found to inhibit the incorporation of N-Acetylneuraminic acid into glycolipids and glycoproteins of both normal and transformed hamster embryo cells in tissue culture. Three hours after commencement of treatment (10^?3M ara-C), incorporation of [¹⁴C] thymidine into DNA was inhibited by 95 per cent, while incorporation of [³H] D-glycosamine (precursor of sialic acid) into glycolipids and glycoproteins was inhibited by 85 per cent. At 24 hours, the inhibition of incorporation of the two labelled components was 83 and 80 per cent respectively. In homogenates of both cell types, incorporation of [¹⁴C] N-acetylneuraminic acid was competitively inhibited by ara-CMP. Ara-C was found to have no effect on the incorporation of [¹⁴C] choline into phospholipids of cells grown in tissue culture. These results suggest that interference with DNA synthesis by ara-C may not be the only factor involved in cell transformation by this substance.